Young Kwok

Long-term outcomes of Gamma Knife radiosurgery for classic trigeminal neuralgia: implications of treatment and critical review of the literature: Clinical article

OBJECT Few long-term studies of Gamma Knife surgery (GKS) for trigeminal neuralgia (TN) exist. The authors report their long-term experience with the use of GKS in a previously reported cohort of patients with TN that has now been followed since 1996. METHODS One hundred twelve patients with TN were treated with GKS at the University of Maryland between June 1996 and July 2001. Of these, 67% had no invasive operations for TN prior to GKS, 13% had 1, 4% had 2, and 16% had >or= 3. The right side was affected in 56% of cases, predominantly involving V2 (26%), V3 (24%), or a combination of both (18%) branches. The median age at diagnosis was 56 years, and median age at GKS was 64 years. The median prescription dose of 75 Gy (range 70-80 Gy) was delivered to the involved trigeminal nerve root entry zone. The authors assessed the degree of pain before and after GKS by using the Barrow Neurological Institute (BNI) pain scale. RESULTS In total, 102 patients took the survey at least once, for a response rate of 91%. Although not found to alter the conclusions of this study, 7 cases of atypical TN were found and these patients were removed, for a total of 95 cases herein analyzed. The median follow-up was 5.6 years (range 13-115 months). Before GKS, 88% of patients categorized their pain as BNI IV or V (inadequate control or severe pain on medication), whereas the remainder described their pain as BNI III (some pain, but controlled on medication). After GKS, 64% reported a BNI score of I (no pain, no medications), 5% had BNI II (no pain, still on medication), 12% had BNI III, and 19% reported a BNI score of IV or V. The median time to response was 2 weeks (range 0-12 weeks) and the median response duration was 32 months (range 0-112 months). Eighty-one percent reported initial pain relief, and actuarial rates of freedom from treatment failure at 1, 3, 5, and 7 years were 60, 41, 34, and 22%, respectively. Response duration was significantly better for those who had no prior invasive treatment versus those in whom a previous surgical intervention had failed (32 vs 21 months, p < 0.02). New bothersome facial numbness was reported in 6% of cases. CONCLUSIONS This study represents one of the longest reported median follow-up periods and actuarial results for a cohort of patients with classic TN treated with GKS. Although GKS achieves excellent rates of initial pain relief, these results suggest a steady rate of late failure, particularly among patients who had undergone prior invasive surgical treatment. Despite a higher than expected recurrence rate, GKS remains a viable treatment option, particularly for patients who have had no prior invasive procedures. Patients with recurrences can still be offered salvage therapy with either repeat GKS, microvascular decompression, or rhizotomy.

Long-Term Survival in Patients With Synchronous, Solitary Brain Metastasis From Non–Small-Cell Lung Cancer Treated With Radiosurgery

PURPOSE To report the outcome of patients with synchronous, solitary brain metastasis from non-small-cell lung cancer (NSCLC) treated with gamma knife stereotactic radiosurgery (GKSRS). PATIENTS AND METHODS Forty-two patients diagnosed with synchronous, solitary brain metastasis from NSCLC were treated with GKSRS between 1993 and 2006. The median Karnofsky performance status (KPS) was 90. Patients had thoracic Stage I-III disease (American Joint Committee on Cancer 2002 guidelines). Definitive thoracic therapy was delivered to 26/42 (62%) patients; 9 patients underwent chemotherapy and radiation, 12 patients had surgical resection, and 5 patients underwent preoperative chemoradiation and surgical resection. RESULTS The median overall survival (OS) was 18 months. The 1-, 2-, and 5-year actuarial OS rates were 71.3%, 34.1%, and 21%, respectively. For patients who underwent definitive thoracic therapy, the median OS was 26.4 months compared with 13.1 months for those who had nondefinitive therapy, and the 5-year actuarial OS was 34.6% vs. 0% (p < 0.0001). Median OS was significantly longer for patients with a KPS >or=90 vs. KPS < 90 (27.8 months vs. 13.1 months, p < 0.0001). The prognostic factors significant on multivariate analysis were definitive thoracic therapy (p = 0.020) and KPS (p = 0.001). CONCLUSIONS This is one of the largest series of patients diagnosed with synchronous, solitary brain metastasis from NSCLC treated with GKSRS. Definitive thoracic therapy and KPS significantly impacted OS. The 5-year OS of 21% demonstrates the potential for long-term survival in patients treated with GKSRS; therefore, patients with good KPS should be considered for definitive thoracic therapy.

Risk group stratification in patients undergoing permanent 125I prostate brachytherapy as monotherapy

PURPOSE Patients undergoing prostate brachytherapy (PB) as monotherapy are often selected on the basis of favorable pretreatment factors. However, intermediate and high-risk prostate cancer patients are commonly offered PB as monotherapy without the addition of external beam radiotherapy (EBRT) or hormonal therapy. This series reports the outcome of patients undergoing PB as monotherapy who were stratified into low, intermediate, and high-risk groups with extended follow-up. METHODS AND MATERIALS A total of 102 patients with clinically localized prostate cancer underwent PB alone as monotherapy. EBRT or hormonal therapy was not part of their initial treatment. Prostate-specific antigen (PSA) relapse-free survival (PRFS) was determined in accordance with the American Society for Therapeutic Radiology and Oncology consensus statement. Patients were stratified as at favorable risk (Stage T1-2a, pretreatment PSA < or =10.0 ng/mL, and Gleason score < or =6), intermediate risk (one prognostic indicator with a higher value), or unfavorable risk (> or =2 indicators with higher values). The median follow-up period for patients in this series was 7 years (range 2.1-9.7). The median age at treatment was 71 years (range 54-80), and the median prescribed dose of (125)I was 145 Gy. RESULTS Forty patients experienced a biochemical relapse at a median of 1.9 years (range 0.4-4.2). The 5-year actuarial PRFS rate for patients with favorable, intermediate, and unfavorable risk was 85%, 63%, and 24%, respectively (p <0.0001). All but 1 patient had the relapse within the first 5 years of treatment. When stratifying patients on the basis of their pretreatment PSA level, the 5-year PRFS rate for men with a PSA < or =10 ng/mL vs. >10 ng/mL was 78% vs. 35%, respectively (p = 0.0005). Furthermore, the 5-year PRFS rate for men with a Gleason score of < or =6 vs. > or =7 was 74% vs. 33%, respectively (p = 0.0001). No difference was found between Stage T1-T2a and Stage T2b or higher (64% vs. 54%, respectively; p = 0.353). CONCLUSION On the basis of risk stratification, PB as monotherapy produces comparable PRFS to EBRT and surgery at 7 years of follow-up. PB as monotherapy is particularly ineffective in patients with unfavorable risk factors, and additional therapy is warranted.

Declining Use of Radiotherapy in Stage I and II Hodgkin’s Disease and Its Effect on Survival and Secondary Malignancies

PURPOSE Concerns regarding long-term toxicities have led some to withhold radiotherapy (RT) for the treatment of Stage I and II Hodgkins disease (HD). The present study was undertaken to assess the use of RT for HD and its effect on overall survival and the development of secondary malignancies. METHODS AND MATERIALS The present study included data from the Surveillance, Epidemiology, and End Results database from patients aged ≥ 20 years who had been diagnosed with Stage I or II HD between 1988 and 2006. Overall survival was estimated using the Kaplan-Meier method, and the Cox multivariate regression model was used to analyze trends. RESULTS A total of 12,247 patients were selected, and 51.5% had received RT. The median follow-up for the present cohort was 4.9 years, with 21% of the cohort having >10 years of follow-up. Between 1988 and 1991, 62.9% had undergone RT, but between 2004 and 2006, only 43.7% had undergone RT (p < .001). The 5-year overall survival rate was 76% for patients who had not received RT and 87% for those who had (p < .001). The hazard ratio adjusted for other variables in the regression model showed that patients who had not undergone RT (hazard ratio, 1.72; 95% confidence interval, 1.72-2.02) was associated with significantly worse survival compared with patients who had received RT. The actuarial rate of developing a second malignancy was 14.6% vs. 15.0% at 15 years for those who had and had not undergone RT, respectively (p = .089). CONCLUSIONS The present study is one of the largest studies to examine the role of RT for Stage I and II HD. Our results revealed a survival benefit with the addition of RT with no increase in the development of secondary malignancies compared with patients who had not received RT. Furthermore, the present nationwide study revealed a >20% absolute decrease in the use of RT from 1988 to 2006.

Long-term outcome of Gamma Knife stereotactic radiosurgery for arteriovenous malformations graded by the Spetzler-Martin classification

OBJECT The object of this study was to assess outcomes in patients with arteriovenous malformations (AVMs) treated by Gamma Knife stereotactic radiosurgery (SRS); lesions were stratified by size, symptomatology, and Spetzler-Martin (S-M) grade. METHODS The authors performed a retrospective analysis of 102 patients treated for an AVM with single-dose or staged-dose SRS between 1993 and 2004. Lesions were grouped by S-M grade, as hemorrhagic or nonhemorrhagic, and as small (< 3 cm) or large (≥ 3 cm). Outcomes included death, morbidity (new neurological deficit, new-onset seizure, or hemorrhage/rehemorrhage), nidus obliteration, and Karnofsky Performance Scale score. RESULTS The mean follow-up was 8.5 years (range 5-16 years). Overall nidus obliteration (achieved in 75% of patients) and morbidity (19%) correlated with lesion size and S-M grade. For S-M Grade I-III AVMs, nonhemorrhagic and hemorrhagic combined, treatment yielded obliteration rates of 100%, 89%, and 86%, respectively; high functional status (Karnofsky Performance Scale Score ≥ 80); and 1% mortality. For S-M Grade IV and V AVMs, outcomes were less favorable, with obliteration rates of 54% and 0%, respectively. The AVMs that were not obliterated had a mean reduction in nidus volume of 69% (range 35%-96%). On long-term follow-up, 10% of patients experienced hemorrhage/rehemorrhage (6% mortality rate), which correlated with lesion size and S-M grade; the mean interval to hemorrhage was 81 months. CONCLUSIONS For patients with S-M Grade I-III AVMs, SRS offers outcomes that are favorable and that, except for the timing of obliteration, appear to be comparable to surgical outcomes reported for the same S-M grades. Staged-dose SRS results in lesion obliteration in half of patients with S-M Grade IV lesions.

Phase II study evaluating the addition of cetuximab to the concurrent delivery of weekly carboplatin, paclitaxel, and daily radiotherapy for patients with locally advanced squamous cell carcinomas of the head and neck.

PURPOSE To report the mature data of a prospective Phase II trial designed to evaluate the efficacy of an epidermal growth factor receptor inhibitor cetuximab (CTX) added to the concurrent therapy of weekly paclitaxel/carboplatin (PC) and daily radiation therapy (RT). METHODS AND MATERIALS From 2005 to 2009, a total of 43 patients were enrolled in the study. The median follow-up was 31 months (range, 9-59 months). All patients had Stage III/IV disease at presentation, and 67% had oropharyngeal primaries. The weekly IV dose schedules were CTX 250 mg/m(2) (400 mg/m(2) IV loading dose 1 week before RT), paclitaxel 40 mg/m(2), and carboplatin AUC 2. RT was given at 1.8 Gy per day to 70.2 Gy. Intensity-modulated RT was used in 70% of cases. RESULTS All patients completed the planned RT dose, 74% without any treatment breaks. The planned CTX and PC cycles were completed in 70% (91% with at least seven of planned nine cycles) and 56% (93% with at least seven of planned eight cycles) of patients, respectively. Toxicity included Grade 3 mucositis (79%), rash (9%), leucopenia (19%), neutropenia (19%), and RT dermatitis (16%). The complete response (CR) rate at the completion of therapy was 84%. The estimated 3-year local regional control rate was 72%. Six patients with an initial CR subsequently experienced a local recurrence, 10 patients experienced distant progression. The median overall survival and disease-free survivals have not been reached. The 3-year actuarial overall survival and disease-free survival were 59% and 58%, respectively. CONCLUSIONS The addition of CTX to weekly PC and daily RT was well tolerated and resulted in encouraging local control and survival rates.

Race Impacts Outcome in Stage III/IV Squamous Cell Carcinomas of the Head and Neck After Concurrent Chemoradiation Therapy

The purpose of this study was to determine the impact of race on outcome in patients with stage III/IV squamous cell carcinoma of the head and neck (SCCHN) who have completed concurrent chemoradiotherapy.

Radiation Therapy Alone for Spinal Cord Compression: Time to Improve Upon a Relatively Ineffective Status Quo

Metastatic spinal cord compression (MSCC) is a common problem afflicting cancer patients. It affects 5% to 14% of all patients with cancer, and more than 20,000 cases are diagnosed annually in the United States. Once diagnosed, it is considered to be a medical emergency, and immediate intervention is required with high-dose corticosteroids and radiotherapy, with or without decompressive surgery. Without therapy, MSCC is a source of significant morbidity and mortality, causing pain, paralysis, incontinence, and an overall decline in quality of life. Even with aggressive therapy, results can often be unsatisfactory. Although most patients will die as a result of their underlying cancer within the first year of the diagnosis of MSCC, up to one third will survive beyond 1 year. Therefore, optimal therapy is required to maintain quality of life. Palliative radiotherapy has long been standard in the management of patients with MSCC, but the radiation oncologist is often faced with multiple competing and complex issues. The need to deliver a meaningful radiation dose to the tumor for adequate palliation must be balanced with the necessity of avoiding undue toxicity, the most serious of which is radiation myelopathy. Furthermore, the fractionation scheme must be weighed against the performance status and expected survival of the patient. These issues may explain the wide range of fractionation schemes reported in multiple retrospective analyses, with a total of 30 Gy in 3-Gy daily fractions for 10 days most frequently prescribed. In this issue of the Journal of Clinical Oncology, Maranzano et al report on a phase III, randomized, multicenter trial of two hypofractionation schemes, short course compared with split course, for patients with MSCC. Although there are multiple randomized trials on fractionation schemes for brain and bone metastases, to our knowledge this report is the first such trial for MSCC. The authors should be commended for completing such a difficult trial. Unfortunately, multiple problems are inherent in this study, and readers should be cautious before implementing the results in clinical practice. The explanation of the selection criteria for short life expectancy ( 6 months) of the study patients is incomplete. One can form the interpretation that the main criterion for inclusion was unfavorable histology alone, or favorable histology with neurologic dysfunction or poor performance status. However, this study has included groups of patients who might be anticipated to live significantly longer than 6 months. For example, one of the most significant predictors of short survival for patients with metastatic cancer is poor performance status; yet, 17% of patients in this study had Karnofsky performance status of 80 to 100. Furthermore, patients with radiosensitive tumors (such as lymphoma, seminoma, and myeloma) were included, as were those with histologies that have relatively long survivals after development of metastasis (such as breast and prostate cancer). Although patients with these favorable factors may have been equally distributed between the two treatments, the inclusion of such patients needs to be taken into account to estimate the true efficacy of radiation in the trial. Although only five patients experienced in-field recurrence, 18 patients (10%) lost the ability to walk after therapy. Is it possible that the inclusion of patients with favorable histology and good Karnofsky performance status allowed for longer survivals, and offered just enough time for the late toxicities of hypofractionated radiotherapy to occur? One of the most controversial aspects of this study was the choice of the two treatment arms. The most common JOURNAL OF CLINICAL ONCOLOGY E D I T O R I A L VOLUME 23 NUMBER 15 MAY 2

Pathology concordance levels for meningioma classification and grading in NRG Oncology RTOG Trial 0539

BACKGROUND With advances in the understanding of histopathology on outcome, accurate meningioma grading becomes critical and drives treatment selection. The 2000 and 2007 WHO schema greatly increased the proportion of grade II meningiomas. Although associations with progression-free survival (PFS) and overall survival (OS) have been independently validated, interobserver concordance has not been formally assessed. METHODS Once mature, NRG Oncology RTOG-0539 will report PFS and OS in variably treated low-, intermediate-, and high-risk cohorts. We address concordance of histopathologic assessment between enrolling institutions and central review, performed by a single pathologist (AP), who is also involved in developing current WHO criteria. RESULTS The trial included 170 evaluable patients, 2 of whom had 2 eligible pathology reviews from different surgeries, resulting in 172 cases for analysis. Upon central review, 76 cases were categorized as WHO grade I, 71 as grade II, and 25 as grade III. Concordance for tumor grade was 87.2%. Among patients with WHO grades I, II, and III meningioma, respective concordance rates were 93.0%, 87.8%, and 93.6% (P values < .0001). Moderate to substantial agreement was encountered for individual grading criteria and were highest for brain invasion, ≥20 mitoses/10 high-powered field [HPF], and spontaneous necrosis, and lowest for small cells, sheeting, and ≥4 mitoses/10 HPF. In comparison, published concordance for gliomas in clinical trials have ranged from 8%-74%. CONCLUSION Our data suggest that current meningioma classification and grading are at least as objective and reproducible as for gliomas. Nevertheless, reproducibility remains suboptimal. Further improvements may be anticipated with education and clarification of subjective criteria, although development of biomarkers may be the most promising strategy.

Comparative analyses of linac and Gamma Knife radiosurgery for trigeminal neuralgia treatments

Dedicated linac-based radiosurgery has been reported for trigeminal neuralgia treatments. In this study, we investigated the dose fall-off characteristics and setup error tolerance of linac-based radiosurgery as compared with standard Gamma Knife radiosurgery. In order to minimize the errors from different treatment planning calculations, consistent imaging registration, dose calculation and dose volume analysis methods were developed and implemented for both Gamma Knife and linac-based treatments. Intra-arc setup errors were incorporated into the treatment planning process of linac-based deliveries. The effects of intra-arc setup errors with increasing number of arcs were studied and benchmarked against Gamma Knife deliveries with and without plugging patterns. Our studies found equivalent dose fall-off properties between Gamma Knife and linac-based radiosurgery given a sufficient number of arcs (>7) and small intra-arc errors (<0.5 mm) were satisfied for linac-based deliveries. Increasing the number of arcs significantly decreased the variations in the dose fall-off curve at the low isodose region (e.g. from 40% to 10%) and also improved dose uniformity at the high isodose region (e.g. from 70% to 90%). As the number of arcs increased, the effects of intra-arc setup errors on the dose fall-off curves decreased. Increasing the number of arcs also reduced the integral dose to the distal normal brain tissues. In conclusion, linac-based radiosurgery produces equivalent dose fall-off characteristics to Gamma Knife radiosurgery with a high number of arcs. However, one must note the increased treatment time for a large number of arcs and isocentre accuracies.